US5988695A - Pipe gasket with embedded ring - Google Patents
Pipe gasket with embedded ring Download PDFInfo
- Publication number
- US5988695A US5988695A US09/140,253 US14025398A US5988695A US 5988695 A US5988695 A US 5988695A US 14025398 A US14025398 A US 14025398A US 5988695 A US5988695 A US 5988695A
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- United States
- Prior art keywords
- gasket
- pipe
- region
- groove
- durometer rubber
- Prior art date
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- Expired - Fee Related
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16L—PIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
- F16L21/00—Joints with sleeve or socket
- F16L21/02—Joints with sleeve or socket with elastic sealing rings between pipe and sleeve or between pipe and socket, e.g. with rolling or other prefabricated profiled rings
- F16L21/03—Joints with sleeve or socket with elastic sealing rings between pipe and sleeve or between pipe and socket, e.g. with rolling or other prefabricated profiled rings placed in the socket before connection
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S285/00—Pipe joints or couplings
- Y10S285/91—Gaskets
Definitions
- the present invention relates generally to sealing gaskets used for pipe joints in which a male spigot pipe section is installed within a mating female socket pipe section.
- Pipes formed from thermoplastic materials including polyethylene polypropylene and PVC are used in a variety of industries.
- the spigot or male pipe end is inserted within the female or socket pipe end.
- An annular, elastomeric ring or gasket is typically seated within a grove formed in the socket end of the thermoplastic pipe.
- the gasket provides the major seal capacity for the joint. It is critical, during the installation process, that the gasket not be able to twist or flip since a displaced or dislocated gasket will adversely affect the ultimate sealing capacity of the joint.
- the sealing gasket consists of a relatively soft elastomeric material.
- a sealing ring which is formed entirely of a material which is sufficiently soft and elastomeric to provide the sealing function has the disadvantage that it is difficult to retain in the desired position in a groove in connection with the joining of sections of pipe. There is also the risk that such a sealing ring will be displaced from its sealing position in the pipe joint if the difference of the internal or external pressures on either side of the sealing ring are sufficiently great.
- the Rieber system employed a combined mould element and sealing ring for sealing a joint between the socket end and spigot end of two cooperating pipes formed from thermoplastic materials.
- the elastomeric gasket was installed within a simultaneously formed internal groove in the socket end of the female pipe during the pipe belling process.
- a sealing ring of the type under consideration could be made entirely of elastically yielding material, such as rubber. Such a design would be simple and could be produced relatively easily with uncomplicated production equipment. However, as has been discussed, such sealing rings made entirely of elastically yielding material generally lack the necessary support effect to avoid being dislodged during field installation procedures and may not be suitable for use as a combined mould element, as described above.
- the groove provided in the female or socket pipe end may assume various shapes.
- the problem of retaining the sealing rings during joining of pipes is even more important in the case where the female grove has a bottom surface which is at least partly rounded in shape. In these cases, axially directed forces can create substantial twisting within the seal ring.
- different approaches have been suggested to compensate for the lack of support effect in sealing rings made of elastically yielding material.
- U.S. Pat. No. 3,776,682 uses a separate support member to support the mould element when producing the socket end of the pipe. However, the construction is more or less unsupported as a sealing ring.
- U.S. Pat. No. 3,500,047 shows a design utilizing two mould element support rings connected to the sealing ring. A design featuring three separate parts complicates the manufacturing operation, however.
- the sealing ring in addition to the elastically yieldable material, includes either an internal or external retainer ring or band which is intended to support the gasket during the manufacturing operation and/or during field installation procedures and transport.
- Another object of the invention is to provide a sealing gasket with a reinforced region which helps to ensure that the gasket is not displaced during field installation, storage or transport and which serves as a reinforced contact point during belling operations.
- Another object of the invention is to provide a sealing gasket which incorporates both a reinforcing element and a reinforced region of the gasket material itself to thereby utilize both types of reinforcing actions in a combination mould and seal element.
- Another object of the invention is to provide a sealing gasket having an externally exposed reinforced region of a material which differs from the remainder of the gasket body, the reinforced region being color coded to identify the type, end use or other characteristic indicia of the gasket.
- Another object of the invention is to provide such a gasket design with an embedded metal ring which avoids metal to water contact while at the same time provides a reinforced contact point for reinforcing the gasket during the combined moulding operations.
- a first pipe of thermoplastic material has a socket end including an internal annular groove and internal cylindrical surfaces on either side of the groove of substantially equal diameter.
- a second pipe has an insert end which is installed within the socket end of the first pipe.
- a sealing gasket is disposed within the groove wholly within the cylindrical surfaces concentrically between and sealingly engaging the pipe insert end and the pipe socket end.
- the gasket is an elastomeric body having a first portion formed of a relatively low durometer rubber to provide the necessary sealing action and having a second portion of a relatively high durometer rubber.
- the gasket also has a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber.
- the gasket has a first portion which, when viewed in cross section, includes a tapered entry surface on an interior surface thereof which tapers downwardly to form a lower compression region for forming a compression seal with the insert end of the spigot when the pipe joint is assembled.
- the second portion of the gasket has an exterior defined by a straight portion, when viewed in cross section, which is inclined in relation to the longitudinal axis of the pipe and which directly contacts the internal pipe groove.
- the remainder of the of the exterior of the gasket is comprised of the lower durometer rubber first portion which occupies the remainder of the annular pipe groove.
- a sealing gasket if first installed on a forming mandrel and seated against a forming collar.
- a section of thermoplastic pipe is heated and a mouth region thereof is forced over the previously installed gasket on the forming mandrel to thereby deform an interior surface of the heated pipe.
- the section of pipe is separated from the forming collar so that the heated pipe contracts about the gasket with the deformed interior surface comprising a gasket groove in the mouth opening of the pipe.
- the pipe is then removed with the previously installed gasket from the forming mandrel.
- the gasket is an elastomeric body having a first portion formed of a relatively low durometer rubber to provide the necessary sealing action and having a second portion of a relatively high durometer rubber.
- the gasket also has a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber.
- FIG. 1 is a partial, prospective view, partly broken away showing the pipe joint of the invention in which a male spigot pipe end is inserted within a female socket end, the female socket end having a groove for receiving the sealing gasket of the invention;
- FIG. 2 is a cross-sectional view of the gasket of the invention showing the embedded ring and differing regions of elastomeric material therein;
- FIG. 3 is a side, cross-sectional view of the female socket end of the pipe showing the gasket of the invention in the compressed, made-up state, the male spigot end being indicated by the phantom lines;
- FIGS. 4-7 are simplified, schematic illustrations of the prior art Rieber process for installing a sealing gasket within a groove formed within the female socket end of a thermoplastic pipe.
- FIGS. 4-7 the Rieber process is illustrated showing the installation of a prior art compression seal gasket within the groove provided within the socket end of the female pipe section.
- FIG. 4 shows an elastomeric sealing gasket 11 having an exposed reinforcing band 13, the gasket being shown installed in the generally cylindrical outer working surface 15 of the mandrel 17 used in the belling process.
- the elastomeric gasket 11 can be formed of, for example, rubber and is a ring shaped, circumferential member having a lower compression region 19 and an exposed nose portion 21 which, as shown in FIG. 4 abuts a back-up or forming collar 23.
- the forming collar 23 has a first generally cylindrical extent 25 which is a joined to a second cylindrical extent 27 by a step region 29, whereby the first extent 27 is of greater external diameter than the first cylindrical extent 25, as shown in FIG. 4.
- the steel reinforced elastomeric ring 11 is placed onto the working surface of the mandrel 17 and is pushed to a position against the back-up or forming collar 23. In this position, the gasket is firmly anchored to the mandrel surface.
- thermoplastic pipe 31 In the second step of the process, the socket end 33 of a thermoplastic pipe 31 is heated and pushed over the steel mandrel 17, gasket 11 and back-up collar 23.
- the socket end is expanded due to the thermoplastic nature of the pipe.
- thermoplastic materials such as polyethylene, polypropylene and polyvinyl chloride (PVC) are known in the prior art having the required expansion characteristics, depending upon the end application of the pipe joint.
- the socket end 33 flows over the first cylindrical extent 25 of the back-up collar 23 and abuts the step region 29 in the second step of the process.
- the mandrel and pipe move away from the back-up collar 23 and the pipe socket end 33 retracts around the mandrel and gasket 11 due to the elastic forces of the thermoplastic material.
- vacuum was also supplied through ports 35, 37 which connected the mandrel working surface with a vacuum source (not shown).
- the pipe socket end 33 is cooled by means of a water spray bar 39 and spray nozzles 41. As the cooling takes place, the pipe socket end 33 shrinks around the gasket 11, thus compressing the rubber body of the gasket between the steel reinforcing band 13 and the socket-groove to establish a firm seal. Since the gasket is sealed against the socket under controlled conditions at the factory, the possibility that sand or similar contaminants would penetrate the crucial sealing zone of the gasket was greatly reduced.
- FIG. 1 shows a sealing gasket of the invention, designated generally as 45 which is installed within a groove 43 provided within the socket end 47 of the illustrated thermoplastic pipe.
- the internal annular groove 43 of the socket end 47 is located between internal cylindrical surfaces 49, 51 of substantially equal diameter.
- the socket end 47 is intended to be made-up to form a pipe joint with the mating male or spigot pipe section 53 which is inserted within the socket end 47.
- the sealing gasket 45 as shown in FIG. 1, is disposed within the groove 43 wholly between the cylindrical surfaces concentrically between and sealingly engaging the pipe insert end 53 and the pipe socket end 47 (see FIG. 3) when the joint is made up.
- FIG. 2 shows the gasket of the invention in enlarged cross-section for ease of illustration.
- the gasket 45 is comprised of a first portion 46 of a relatively lower durometer rubber and a second portion 48 of a relatively higher durometer rubber.
- a rigid, circumferentially continuous ring 55 is located within the gasket body and is embedded within the region of relatively higher durometer rubber 48.
- the ring 55 is preferably formed of a rigid metal such as steel.
- the gasket 45 includes a leading nose region 57 and a lower compression region 59.
- the leading nose region 57 is joined to the lower compression region 59 by a leading curved surface region 61 which forms a tapered entry surface for the mating male spigot end of the pipe making up the pipe joint.
- the lower compression region 59 is also joined to a secondary seal surface 63 by a trailing curved surface region 65 and an intermediate circumferential groove region 67.
- the groove region 67 includes an outer wall 69 which forms an obtuse angle with respect to the remainder of the groove region.
- the secondary seal surface 63 is a planar circumferential region which terminates an inside corner 71 of the gasket 45.
- the inside corner 71 is connected to an outer arcuate region 73 of the gasket 45 by uniformly sloping exterior gaskets surface 75.
- the outer arcuate region 73 is connected to the nose region 57 of the gasket by a concave curved region 77.
- the higher durometer second portion of the gasket 48 has an exterior defined by a straight portion 50 which, when viewed in cross section, is inclined in relation to the longitudinal axis (52 in FIG. 1) of the pipe and which directly contacts the internal pipe groove 43.
- the remainder of the exterior of the gasket is comprised of the lower durometer rubber first portion 46 which occupies the remainder of the annular pipe groove.
- the relatively higher durometer rubber portion of the gasket 48 and the rigid reinforcing ring 55 are resistant to deformation so that the gasket body as a whole is securely maintained in the groove of the pipe socket end during the installation of the spigot end.
- the secondary seal surface 63 is comprised of a first extent 54 of the first relatively lower durometer rubber and a second extent 56 of the relatively higher durometer rubber.
- the inner corner 71 of the gasket is comprised entirely of the higher durometer rubber.
- the second portion of the gasket 48, formed of the relatively higher durometer rubber, is generally rectangular in cross section but terminates in a wedge shaped point which forms the inner corner of the gasket.
- the first portion of the gasket body 46 is preferably formed of a relatively low durometer natural or synthetic rubber which is effective to provide adequate sealing against the outer pipe groove 43.
- the second portion of the gasket body 48 can be formed of a harder, less resilient material which has a higher durometer than material of the first portion. While various materials are known which would have the requisite higher durometer, such as hard plastic materials, such as polypropylene plastic or polyvinyl chloride plastic, the preferred material for the second portion 48 is a higher durometer natural or synthetic rubber to thereby provide a gasket having a generally homogeneous composition.
- the second portion 48 is formed from rubber having a Shore A durometer on the order of 75 to 95 while the first portion 46 is formed from rubber having a Shore A hardness on the order of 40 to 65.
- the portions of the gasket 46, 48 are integrally formed. That is, they are bonded or otherwise joined along an angular boundary which, in this case forms a first leg 58 and a second leg 60 generally perpendicular thereto.
- the portions could be formed by, for example, extrusion, with the angular boundaries being joined by gluing or vulcanization to form a unitary gasket body.
- Those skilled in the rubber fabrication arts will also recognize that available techniques can be utilized in forming a unitary body having regions of differing durometer.
- the second portion 48 of the gasket body is preferably colored with a suitable pigment to provide, for example, characterizing indicia to an end user.
- a red band could indicate a gasket for use in a water pipe
- a blue band could indicate a gasket for use in a sewer pipe
- a yellow band could indicate a gasket suitable for a high temperature application, etc.
- the make-up of the pipe joint requires the insertion of the male spigot pipe section 53 within the mouth opening of the female socket end 47.
- the compression region 59 of the sealing gasket 45 is compressed to approximately the horizontal axis 93 (FIG. 3).
- the reinforcing ring 55 and region of relatively higher durometer rubber 48 help to retain the gasket 45 in position within the groove 43, thereby insuring that the gasket is not displaced or dislodged during the installation procedure.
- the gasket of the invention 45 is first installed on the mandrel 17 in identical fashion to prior art gasket 11.
- the embedded ring 55 and reinforced region 48 together provide a reinforced contact point during the steps of forming the pipe groove illustrated in FIGS. 6 and 7.
- the metallic reinforcing element is separated from the surrounding environment. Since the pipe joints of the invention are often used in water or sewage transport systems, isolating the metallic reinforcing element prevents any possible corrosion of the element which might adversely affect the integrity of the joint.
- the gasket of the invention is simple in design and economical to manufacture.
- the design features a metal reinforced elastomeric body which allows it to serve as a combined mould element and sealing structure.
- the reinforced gasket can be placed on a forming mandrel with the heated thermoplastic pipe forced over and about the gasket to create the gasket groove during the manufacturing operation without dislodging the gasket.
- the reinforcing element helps to retain the gasket in position once the belling operation is completed to insure that the gasket is not dislodged or displaced during storage, transportation or field installation.
- the reinforcing element is embedded within the elastomeric body of the gasket, it is entirely isolated from the external environment including water, sewage or other fluids flowing through the pipe joint. As such, the metal reinforcing element is not subject to corrosion or deterioration by contact with liquids.
- the combination of a metal reinforcing ring and a region of reinforced elastomer combine to improve the overall properties of the combined seal ring and mould element.
Abstract
A pipe sealing gasket is shown which is designed to be received within a groove provided within a socket end of a thermoplastic pipe. The gasket has a ring shaped body of an elastomeric material and includes a metal reinforcing ring. The elastomeric body includes a first portion of relatively low durometer rubber and a second portion of a relatively high durometer rubber. The regions of relative hardness and the placement of the reinforcing ring assist in retention of the gasket during the pipe belling process and in field installation.
Description
1. Field of the Invention
The present invention relates generally to sealing gaskets used for pipe joints in which a male spigot pipe section is installed within a mating female socket pipe section.
2. Description of the Prior Art
Pipes formed from thermoplastic materials including polyethylene polypropylene and PVC are used in a variety of industries. In forming a joint between sections of pipe, the spigot or male pipe end is inserted within the female or socket pipe end. An annular, elastomeric ring or gasket is typically seated within a grove formed in the socket end of the thermoplastic pipe. As the spigot is inserted within the socket, the gasket provides the major seal capacity for the joint. It is critical, during the installation process, that the gasket not be able to twist or flip since a displaced or dislocated gasket will adversely affect the ultimate sealing capacity of the joint.
Irrespective of the type of sealing action of the sealing element, such as compression sealing action, lip sealing action or a combination thereof, it is necessary that the sealing gasket consists of a relatively soft elastomeric material. However, a sealing ring which is formed entirely of a material which is sufficiently soft and elastomeric to provide the sealing function has the disadvantage that it is difficult to retain in the desired position in a groove in connection with the joining of sections of pipe. There is also the risk that such a sealing ring will be displaced from its sealing position in the pipe joint if the difference of the internal or external pressures on either side of the sealing ring are sufficiently great.
In the early 1970's, a new technology was developed by Rieber & Son of Bergen, Norway, referred to in the industry as the "Rieber Joint." The Rieber system employed a combined mould element and sealing ring for sealing a joint between the socket end and spigot end of two cooperating pipes formed from thermoplastic materials. In the Rieber process, the elastomeric gasket was installed within a simultaneously formed internal groove in the socket end of the female pipe during the pipe belling process. The provision of a prestressed and anchored elastomeric gasket during the belling process at the pipe factory provided an improved socket end for a pipe joint with a sealing gasket which would not twist or flip or otherwise allow impurities to enter the sealing zones of the joint, thus increasing the reliability of the joint and decreasing the risk of leaks or possible failure due to abrasion. The Rieber process is described in the following issued United States patents, among others: U.S. Pat. Nos. 4,120,521; 4,061,459; 4,030,872; 3,965,715; 3,929,958; 3,387,992; 3,884,612; and 3,776,682.
It should be evident that a sealing ring of the type under consideration could be made entirely of elastically yielding material, such as rubber. Such a design would be simple and could be produced relatively easily with uncomplicated production equipment. However, as has been discussed, such sealing rings made entirely of elastically yielding material generally lack the necessary support effect to avoid being dislodged during field installation procedures and may not be suitable for use as a combined mould element, as described above.
The groove provided in the female or socket pipe end may assume various shapes. The problem of retaining the sealing rings during joining of pipes is even more important in the case where the female grove has a bottom surface which is at least partly rounded in shape. In these cases, axially directed forces can create substantial twisting within the seal ring. In order to address the above problems, different approaches have been suggested to compensate for the lack of support effect in sealing rings made of elastically yielding material. The previously mentioned U.S. Pat. No. 3,776,682 uses a separate support member to support the mould element when producing the socket end of the pipe. However, the construction is more or less unsupported as a sealing ring. U.S. Pat. No. 3,500,047 shows a design utilizing two mould element support rings connected to the sealing ring. A design featuring three separate parts complicates the manufacturing operation, however.
In other designs, the sealing ring, in addition to the elastically yieldable material, includes either an internal or external retainer ring or band which is intended to support the gasket during the manufacturing operation and/or during field installation procedures and transport.
In those designs utilizing external reinforcing bands or rings, it is possible that water, sewage waste or other contaminates could corrode metal surfaces, thereby compromising the integrity of the pipe joint.
It is an object of the present invention to provide a sealing gasket of elastically yielding material which is suitable for use as a combined mould element and sealing ring.
Another object of the invention is to provide a sealing gasket with a reinforced region which helps to ensure that the gasket is not displaced during field installation, storage or transport and which serves as a reinforced contact point during belling operations.
Another object of the invention is to provide a sealing gasket which incorporates both a reinforcing element and a reinforced region of the gasket material itself to thereby utilize both types of reinforcing actions in a combination mould and seal element.
Another object of the invention is to provide a sealing gasket having an externally exposed reinforced region of a material which differs from the remainder of the gasket body, the reinforced region being color coded to identify the type, end use or other characteristic indicia of the gasket.
Another object of the invention is to provide such a gasket design with an embedded metal ring which avoids metal to water contact while at the same time provides a reinforced contact point for reinforcing the gasket during the combined moulding operations.
In the pipe joint of the invention, a first pipe of thermoplastic material has a socket end including an internal annular groove and internal cylindrical surfaces on either side of the groove of substantially equal diameter. A second pipe has an insert end which is installed within the socket end of the first pipe. A sealing gasket is disposed within the groove wholly within the cylindrical surfaces concentrically between and sealingly engaging the pipe insert end and the pipe socket end. The gasket is an elastomeric body having a first portion formed of a relatively low durometer rubber to provide the necessary sealing action and having a second portion of a relatively high durometer rubber. The gasket also has a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber. The gasket has a first portion which, when viewed in cross section, includes a tapered entry surface on an interior surface thereof which tapers downwardly to form a lower compression region for forming a compression seal with the insert end of the spigot when the pipe joint is assembled.
In a preferred form, the second portion of the gasket has an exterior defined by a straight portion, when viewed in cross section, which is inclined in relation to the longitudinal axis of the pipe and which directly contacts the internal pipe groove. The remainder of the of the exterior of the gasket is comprised of the lower durometer rubber first portion which occupies the remainder of the annular pipe groove.
In the method of installing a pipe gasket within a groove in a female section of thermoplastic pipe, a sealing gasket if first installed on a forming mandrel and seated against a forming collar. A section of thermoplastic pipe is heated and a mouth region thereof is forced over the previously installed gasket on the forming mandrel to thereby deform an interior surface of the heated pipe. The section of pipe is separated from the forming collar so that the heated pipe contracts about the gasket with the deformed interior surface comprising a gasket groove in the mouth opening of the pipe. The pipe is then removed with the previously installed gasket from the forming mandrel. The gasket is an elastomeric body having a first portion formed of a relatively low durometer rubber to provide the necessary sealing action and having a second portion of a relatively high durometer rubber. The gasket also has a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber.
Additional objects, features and advantages will be apparent in the written description which follows.
FIG. 1 is a partial, prospective view, partly broken away showing the pipe joint of the invention in which a male spigot pipe end is inserted within a female socket end, the female socket end having a groove for receiving the sealing gasket of the invention;
FIG. 2 is a cross-sectional view of the gasket of the invention showing the embedded ring and differing regions of elastomeric material therein;
FIG. 3 is a side, cross-sectional view of the female socket end of the pipe showing the gasket of the invention in the compressed, made-up state, the male spigot end being indicated by the phantom lines; and
FIGS. 4-7 are simplified, schematic illustrations of the prior art Rieber process for installing a sealing gasket within a groove formed within the female socket end of a thermoplastic pipe.
In order to fully appreciate the advantages provided by the pipe gasket of the invention, reference must first be had the prior art Rieber manufacturing process. Turning first to FIGS. 4-7, the Rieber process is illustrated showing the installation of a prior art compression seal gasket within the groove provided within the socket end of the female pipe section.
FIG. 4 shows an elastomeric sealing gasket 11 having an exposed reinforcing band 13, the gasket being shown installed in the generally cylindrical outer working surface 15 of the mandrel 17 used in the belling process. The elastomeric gasket 11 can be formed of, for example, rubber and is a ring shaped, circumferential member having a lower compression region 19 and an exposed nose portion 21 which, as shown in FIG. 4 abuts a back-up or forming collar 23. The forming collar 23 has a first generally cylindrical extent 25 which is a joined to a second cylindrical extent 27 by a step region 29, whereby the first extent 27 is of greater external diameter than the first cylindrical extent 25, as shown in FIG. 4.
In the prior art technique, the steel reinforced elastomeric ring 11 is placed onto the working surface of the mandrel 17 and is pushed to a position against the back-up or forming collar 23. In this position, the gasket is firmly anchored to the mandrel surface.
In the second step of the process, the socket end 33 of a thermoplastic pipe 31 is heated and pushed over the steel mandrel 17, gasket 11 and back-up collar 23. The socket end is expanded due to the thermoplastic nature of the pipe. A number of thermoplastic materials, such as polyethylene, polypropylene and polyvinyl chloride (PVC) are known in the prior art having the required expansion characteristics, depending upon the end application of the pipe joint.
The socket end 33 flows over the first cylindrical extent 25 of the back-up collar 23 and abuts the step region 29 in the second step of the process. In the next step of the process (FIG. 6) the mandrel and pipe move away from the back-up collar 23 and the pipe socket end 33 retracts around the mandrel and gasket 11 due to the elastic forces of the thermoplastic material. Typically, vacuum was also supplied through ports 35, 37 which connected the mandrel working surface with a vacuum source (not shown).
In the last step of the process (FIG. 7) the pipe socket end 33 is cooled by means of a water spray bar 39 and spray nozzles 41. As the cooling takes place, the pipe socket end 33 shrinks around the gasket 11, thus compressing the rubber body of the gasket between the steel reinforcing band 13 and the socket-groove to establish a firm seal. Since the gasket is sealed against the socket under controlled conditions at the factory, the possibility that sand or similar contaminants would penetrate the crucial sealing zone of the gasket was greatly reduced. The reinforcing metal band 13, in addition to providing the required rigidity during the manufacturing process described, also functions as a retainer to insure that the gasket is not displaced from the groove (43 in FIG. 7) during transport or installation.
The above-described Rieber process has been in commercial use since the early 1970's and is described in the above reference issued United States patents, among other sources. It will thus be well familiar to those skilled in the thermoplastic pipe sealing arts.
FIG. 1 shows a sealing gasket of the invention, designated generally as 45 which is installed within a groove 43 provided within the socket end 47 of the illustrated thermoplastic pipe. As shown in FIG. 1, the internal annular groove 43 of the socket end 47 is located between internal cylindrical surfaces 49, 51 of substantially equal diameter. The socket end 47 is intended to be made-up to form a pipe joint with the mating male or spigot pipe section 53 which is inserted within the socket end 47. The sealing gasket 45, as shown in FIG. 1, is disposed within the groove 43 wholly between the cylindrical surfaces concentrically between and sealingly engaging the pipe insert end 53 and the pipe socket end 47 (see FIG. 3) when the joint is made up.
FIG. 2 shows the gasket of the invention in enlarged cross-section for ease of illustration. The gasket 45 is comprised of a first portion 46 of a relatively lower durometer rubber and a second portion 48 of a relatively higher durometer rubber. A rigid, circumferentially continuous ring 55 is located within the gasket body and is embedded within the region of relatively higher durometer rubber 48. The ring 55 is preferably formed of a rigid metal such as steel. The gasket 45 includes a leading nose region 57 and a lower compression region 59. The leading nose region 57 is joined to the lower compression region 59 by a leading curved surface region 61 which forms a tapered entry surface for the mating male spigot end of the pipe making up the pipe joint. The lower compression region 59 is also joined to a secondary seal surface 63 by a trailing curved surface region 65 and an intermediate circumferential groove region 67. The groove region 67 includes an outer wall 69 which forms an obtuse angle with respect to the remainder of the groove region.
The secondary seal surface 63 is a planar circumferential region which terminates an inside corner 71 of the gasket 45. The inside corner 71 is connected to an outer arcuate region 73 of the gasket 45 by uniformly sloping exterior gaskets surface 75. The outer arcuate region 73 is connected to the nose region 57 of the gasket by a concave curved region 77.
As shown in FIGS. 2 and 3, the higher durometer second portion of the gasket 48 has an exterior defined by a straight portion 50 which, when viewed in cross section, is inclined in relation to the longitudinal axis (52 in FIG. 1) of the pipe and which directly contacts the internal pipe groove 43. The remainder of the exterior of the gasket is comprised of the lower durometer rubber first portion 46 which occupies the remainder of the annular pipe groove.
The relatively higher durometer rubber portion of the gasket 48 and the rigid reinforcing ring 55 are resistant to deformation so that the gasket body as a whole is securely maintained in the groove of the pipe socket end during the installation of the spigot end.
Thus, as viewed in FIG. 2, the secondary seal surface 63 is comprised of a first extent 54 of the first relatively lower durometer rubber and a second extent 56 of the relatively higher durometer rubber. The inner corner 71 of the gasket is comprised entirely of the higher durometer rubber. The second portion of the gasket 48, formed of the relatively higher durometer rubber, is generally rectangular in cross section but terminates in a wedge shaped point which forms the inner corner of the gasket.
The first portion of the gasket body 46 is preferably formed of a relatively low durometer natural or synthetic rubber which is effective to provide adequate sealing against the outer pipe groove 43. The second portion of the gasket body 48 can be formed of a harder, less resilient material which has a higher durometer than material of the first portion. While various materials are known which would have the requisite higher durometer, such as hard plastic materials, such as polypropylene plastic or polyvinyl chloride plastic, the preferred material for the second portion 48 is a higher durometer natural or synthetic rubber to thereby provide a gasket having a generally homogeneous composition.
In the preferred embodiment of the invention, the second portion 48 is formed from rubber having a Shore A durometer on the order of 75 to 95 while the first portion 46 is formed from rubber having a Shore A hardness on the order of 40 to 65.
The portions of the gasket 46, 48 are integrally formed. That is, they are bonded or otherwise joined along an angular boundary which, in this case forms a first leg 58 and a second leg 60 generally perpendicular thereto. The portions could be formed by, for example, extrusion, with the angular boundaries being joined by gluing or vulcanization to form a unitary gasket body. Those skilled in the rubber fabrication arts will also recognize that available techniques can be utilized in forming a unitary body having regions of differing durometer.
The second portion 48 of the gasket body is preferably colored with a suitable pigment to provide, for example, characterizing indicia to an end user. For example a red band could indicate a gasket for use in a water pipe, a blue band could indicate a gasket for use in a sewer pipe, a yellow band could indicate a gasket suitable for a high temperature application, etc.
Referring to FIG. 1, the make-up of the pipe joint requires the insertion of the male spigot pipe section 53 within the mouth opening of the female socket end 47. As the male spigot end 53 passes over the gasket region, the compression region 59 of the sealing gasket 45 is compressed to approximately the horizontal axis 93 (FIG. 3). During the installation operation in which the male spigot end 53 is inserted within the female socket end 47, the reinforcing ring 55 and region of relatively higher durometer rubber 48 help to retain the gasket 45 in position within the groove 43, thereby insuring that the gasket is not displaced or dislodged during the installation procedure.
Again with reference to the prior art belling process illustrated in FIGS. 4-7 the gasket of the invention 45 is first installed on the mandrel 17 in identical fashion to prior art gasket 11. As the heated pipe 31 flows over the gasket and is ultimately formed about the gasket, the embedded ring 55 and reinforced region 48 together provide a reinforced contact point during the steps of forming the pipe groove illustrated in FIGS. 6 and 7. While the gasket continues to provide a reinforced contact point to facilitate the belling operation, the metallic reinforcing element is separated from the surrounding environment. Since the pipe joints of the invention are often used in water or sewage transport systems, isolating the metallic reinforcing element prevents any possible corrosion of the element which might adversely affect the integrity of the joint.
An invention has been provided with several advantages. The gasket of the invention is simple in design and economical to manufacture. The design features a metal reinforced elastomeric body which allows it to serve as a combined mould element and sealing structure. In other words, the reinforced gasket can be placed on a forming mandrel with the heated thermoplastic pipe forced over and about the gasket to create the gasket groove during the manufacturing operation without dislodging the gasket. Additionally, the reinforcing element helps to retain the gasket in position once the belling operation is completed to insure that the gasket is not dislodged or displaced during storage, transportation or field installation. Because the reinforcing element is embedded within the elastomeric body of the gasket, it is entirely isolated from the external environment including water, sewage or other fluids flowing through the pipe joint. As such, the metal reinforcing element is not subject to corrosion or deterioration by contact with liquids. The combination of a metal reinforcing ring and a region of reinforced elastomer combine to improve the overall properties of the combined seal ring and mould element.
While the invention has been shown in only one of its forms, it is not thus limited but is susceptible to various changes and modifications without departing from the spirit thereof.
Claims (19)
1. A pipe joint, comprising:
a first pipe of thermoplastic material having a socket end including an internal annular groove positioned along a central longitudinal axis and internal cylindrical surfaces on either side of the groove of substantially equal diameter;
a second pipe having an insert end which mates with the socket end of the first pipe;
a sealing gasket disposed within the groove wholly between the cylindrical surfaces concentrically between and sealingly engaging the pipe insert end and the pipe socket end, the gasket being an elastomeric body having a first portion formed of a relatively low durometer rubber to provide sealing against the groove in the pipe socket end and having a second portion of a relatively high durometer rubber; and
a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber.
2. The pipe joint of claim 1, wherein the first portion of the gasket, when viewed in cross section, includes a tapered entry surface on an interior surface thereof which tapers downwardly to form a lower compression region for forming a compression seal with the insert end of the spigot when the pipe joint is assembled.
3. The pipe joint of claim 2, wherein the higher durometer second portion of the gasket has an exterior defined by a straight portion, when viewed in cross section, which is inclined in relation to the longitudinal axis of the pipe and which directly contacts the internal pipe groove, the remainder of the of the exterior of the gasket being comprised of the lower durometer rubber first portion which occupies the remainder of the annular pipe groove.
4. The pipe joint of claim 3, wherein the relatively higher durometer rubber portion of the gasket and the rigid reinforcing ring are resistant to deformation so that the gasket body as a whole is securely maintained in the groove of the pipe socket end during the installation of the spigot end.
5. The pipe joint of claim 4, wherein the reinforcing ring is formed of metal.
6. The pipe joint of claim 5, wherein the gasket, when viewed in cross section, has a leading nose region joined to a lower compression region by a leading curved surface region, the lower compression region being joined to secondary seal surface by a trailing curved surface region which terminates in an inside corner of the gasket body, the inside corner being connected to an outer arcuate region by a uniformly sloping exterior gasket surface, the outer concave surface region of the gasket being joined to the nose region by a concave curved region.
7. The pipe joint of claim 6, wherein the secondary seal surface is comprised of a first extend of the first relatively lower durometer rubber and a second extent of the relatively higher durometer rubber.
8. The pipe joint of claim 7, wherein the inner corner of the gasket is comprised entirely of the higher durometer rubber.
9. The pipe joint of claim 8, wherein the second portion of the gasket, formed of the relatively higher durometer rubber, is generally rectangular in cross section but terminates in a wedge shaped point which forms the inner corner of the gasket.
10. A method of installing a pipe gasket within a groove in a female section of thermoplastic pipe, the method comprising the steps of:
installing a sealing gasket on a forming mandrel, the gasket being seated against a forming collar;
heating a section of thermoplastic pipe and forcing a mouth opening of the section of pipe over the previously installed gasket to thereby deform an interior surface of the heated pipe;
separating the section of pipe from the forming collar and so that the heated pipe contracts about the gasket with the deformed interior surface comprising a gasket groove in the mouth opening of the pipe;
removing the pipe with the previously installed gasket from the forming mandrel; and
wherein the gasket is an elastomeric body having a first portion formed of a relatively low durometer rubber to provide sealing against a groove in a pipe socket end and having a second portion of a relatively high durometer rubber, the gasket also having a rigid, circumferentially continuous reinforcing ring located wholly within the second portion of relatively high durometer rubber.
11. The method of claim 10, wherein the first portion of the gasket, when viewed in cross section, includes a tapered entry surface on an interior surface thereof which tapers downwardly to form a lower compression region for forming a compression seal with the insert end of the spigot when the pipe joint is assembled.
12. The method of claim 11, wherein the higher durometer second portion of the gasket has an exterior defined by a straight portion, when viewed in cross section, which is inclined in relation to the longitudinal axis of the pipe and which directly contacts the internal pipe groove, the remainder of the of the exterior of the gasket being comprised of the lower durometer rubber first portion which occupies the remainder of the annular pipe groove.
13. The method of claim 12, wherein the relatively higher durometer rubber portion of the gasket and the rigid reinforcing ring are resistant to deformation so that the gasket body as a whole is securely maintained in the groove of the pipe socket end during the installation of the spigot end.
14. The method of claim 13, wherein the reinforcing ring is formed of metal.
15. The method of claim 14, wherein the gasket, when viewed in cross section, has a leading nose region joined to a lower compression region by a leading curved surface region, the lower compression region being joined to secondary seal surface by a trailing curved surface region which terminates in an inside corner of the gasket body, the inside corner being connected to an outer arcuate region by a uniformly sloping exterior gasket surface, the outer concave surface region of the gasket being joined to the nose region by a concave curved region.
16. The method of claim 15, wherein the secondary seal surface is comprised of a first extend of the first relatively lower durometer rubber and a second extent of the relatively higher durometer rubber.
17. The method of claim 16, wherein the inner corner of the gasket is comprised entirely of the higher durometer rubber.
18. The method of claim 17, wherein the second portion of the gasket, formed of the relatively higher durometer rubber, is generally rectangular in cross section but terminates in a wedge shaped point which forms the inner corner of the gasket.
19. The method of claim 18, wherein the exterior of the second portion of the gasket, together with the reinforcing ring, provide a reinforced contact point during the steps of forming the pipe groove.
Priority Applications (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09/140,253 US5988695A (en) | 1998-08-26 | 1998-08-26 | Pipe gasket with embedded ring |
AU55686/99A AU5568699A (en) | 1998-08-26 | 1999-08-18 | Pipe gasket with embedded ring |
DE69916290T DE69916290T2 (en) | 1998-08-26 | 1999-08-18 | PIPE SEAL WITH TAILORED RING |
EP99942267A EP1105669B1 (en) | 1998-08-26 | 1999-08-18 | Pipe gasket with embedded ring |
BR9911839-4A BR9911839A (en) | 1998-08-26 | 1999-08-18 | Tube gasket with recessed ring |
PCT/US1999/018735 WO2000012926A1 (en) | 1998-08-26 | 1999-08-18 | Pipe gasket with embedded ring |
MYPI99003652A MY115500A (en) | 1998-08-26 | 1999-08-25 | Pipe gasket with embedded ring |
PE1999000865A PE20000825A1 (en) | 1998-08-26 | 1999-08-26 | SEAL FOR CANOS WITH INLAY RING |
ARP990104288A AR020277A1 (en) | 1998-08-26 | 1999-08-26 | GASKET GASKET, AND METHOD FOR INSTALLING A SHUTTER GASKET. |
CO99054062A CO4991012A1 (en) | 1998-08-26 | 1999-08-26 | GASKET FOR DOGS WITH SAUSED RING |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US09/140,253 US5988695A (en) | 1998-08-26 | 1998-08-26 | Pipe gasket with embedded ring |
Publications (1)
Publication Number | Publication Date |
---|---|
US5988695A true US5988695A (en) | 1999-11-23 |
Family
ID=22490415
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US09/140,253 Expired - Fee Related US5988695A (en) | 1998-08-26 | 1998-08-26 | Pipe gasket with embedded ring |
Country Status (10)
Country | Link |
---|---|
US (1) | US5988695A (en) |
EP (1) | EP1105669B1 (en) |
AR (1) | AR020277A1 (en) |
AU (1) | AU5568699A (en) |
BR (1) | BR9911839A (en) |
CO (1) | CO4991012A1 (en) |
DE (1) | DE69916290T2 (en) |
MY (1) | MY115500A (en) |
PE (1) | PE20000825A1 (en) |
WO (1) | WO2000012926A1 (en) |
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US6193285B1 (en) * | 1998-12-30 | 2001-02-27 | John P. Proctor | Duct joining system |
US6336640B1 (en) | 2000-06-02 | 2002-01-08 | Malcolm Mann Inc. | Gasket |
US6357802B1 (en) * | 1997-12-24 | 2002-03-19 | Mikuni Plastics Co., Ltd. | Pipe of hard thermoplastic resin, pipe joint structure and methods of manufacturing the same |
US6364370B1 (en) * | 1999-03-30 | 2002-04-02 | Katsuji Honda | Pipe joint |
US6367802B1 (en) | 1999-11-30 | 2002-04-09 | Malcolm Mann Inc. | Annular gasket with locking structure |
US6488319B2 (en) * | 2001-04-26 | 2002-12-03 | Jim Jones | Self restrained pressure gasket |
US6550775B2 (en) | 2000-11-30 | 2003-04-22 | Malcolm Mann, Inc. | Annular gasket |
US20030107189A1 (en) * | 2000-11-10 | 2003-06-12 | Roger Bonnert | Sealing ring for connecting two especially insertable concrete components |
US6663112B1 (en) * | 1999-05-31 | 2003-12-16 | Enebacken Skrea Ab | Sealing device |
US20040041347A1 (en) * | 2000-11-30 | 2004-03-04 | Beach Jefferey Kurtis | Permanently lubricated gasket |
US20040102447A1 (en) * | 2000-10-20 | 2004-05-27 | Roger Bonnert | 7-amino-2-alkylthiopteridin-4-yl-amines for the treatment of chemokine-related diseases |
US20040157853A1 (en) * | 2001-04-12 | 2004-08-12 | Roger Bonnert | Thiazolopytimidines and their use as modulators of chemokine receptor activity |
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US9194519B2 (en) | 2010-08-24 | 2015-11-24 | Mueller International, Llc | Gasket for parabolic ramp self restraining bell joint |
US20160377178A1 (en) * | 2015-06-25 | 2016-12-29 | Evolution Engineering Inc. | Method for sealing a gap sub assembly |
US9593787B2 (en) | 2013-06-21 | 2017-03-14 | S & B Technical Products, Inc. | Secured in place gasket for sealing plastic pipelines, method of manufacture and method of installation |
US10107427B2 (en) | 2013-06-21 | 2018-10-23 | S & B Technical Products, Inc. | Secured in place gasket for sealing plastic pipelines, method of manufacture and method of installation |
US10288199B2 (en) * | 2016-05-11 | 2019-05-14 | Mcwane, Inc. | Restrained plastic pipe joint and method of making same |
US10342958B2 (en) | 2017-06-30 | 2019-07-09 | Abbott Cardiovascular Systems Inc. | System and method for correcting valve regurgitation |
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US10648602B2 (en) | 2017-05-23 | 2020-05-12 | S&B Technical Products, Inc | Sealing gasket with specialized reinforcing ring for sealing plastic pipelines |
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Also Published As
Publication number | Publication date |
---|---|
PE20000825A1 (en) | 2000-08-31 |
EP1105669A4 (en) | 2002-06-19 |
EP1105669B1 (en) | 2004-04-07 |
AR020277A1 (en) | 2002-05-02 |
DE69916290D1 (en) | 2004-05-13 |
WO2000012926A1 (en) | 2000-03-09 |
AU5568699A (en) | 2000-03-21 |
CO4991012A1 (en) | 2000-12-26 |
BR9911839A (en) | 2001-09-25 |
MY115500A (en) | 2003-06-30 |
DE69916290T2 (en) | 2005-05-04 |
EP1105669A1 (en) | 2001-06-13 |
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